No. | parte # | Fabricante | Descripción | Hoja de Datos |
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Pulse |
SMT Current Sense Transformer use a typical temperature rise of 40°C with no airflow when both one turn windings connected in parallel. 3. To calculate value of terminating resistor (Rt) use the following formula: Rt (W) = Vref * N / (Ipeak_primary) 4. The peak flux densit |
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Pulse |
SMT Power Inductor 151NLT 155 150 31 40 36 PA0511.221NLT 220 176 25 33 25 PA1211.850NLT * 85 85 31 70+ 70 PA1211.900NLT * 100 100 31 70 65 PA1211.101NLT 120 120 31 0.55 ±7.3% 52 42 PA1211.151NLT 155 150 31 40 36 PA1211.221NLT 220 |
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Pulse |
SMT POWER INDUCTORS L 2 50 40 310 310 - - - 240 240 - - - PA1313NL PA1314NL 3 4 50 40 370 450 370 - - 285 350 285 - - 0.425 0.5 50 40 370 490 490 370 - 285 385 385 285 - PA1315NL 5 50 40 370 470 490 470 390 285 365 385 365 285 NOTES: 1. In a non- |
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Pulse |
TRANSFORMERS ent rating is based upon temperature rise of the component and represents the DC current which will cause a typical temperature rise of 40°C with no airflow when both one turn windings * for bi-polar current applications divide Bpk (as calculated ab |
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Pulse |
TRANSFORMERS ent rating is based upon temperature rise of the component and represents the DC current which will cause a typical temperature rise of 40°C with no airflow when both one turn windings * for bi-polar current applications divide Bpk (as calculated ab |
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Pulse |
TRANSFORMERS ent rating is based upon temperature rise of the component and represents the DC current which will cause a typical temperature rise of 40°C with no airflow when both one turn windings * for bi-polar current applications divide Bpk (as calculated ab |
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Pulse |
TRANSFORMERS ent rating is based upon temperature rise of the component and represents the DC current which will cause a typical temperature rise of 40°C with no airflow when both one turn windings * for bi-polar current applications divide Bpk (as calculated ab |
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Pulse |
TRANSFORMERS ent rating is based upon temperature rise of the component and represents the DC current which will cause a typical temperature rise of 40°C with no airflow when both one turn windings * for bi-polar current applications divide Bpk (as calculated ab |
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|
Pulse |
SMT Current Sense Transformer use a typical temperature rise of 40°C with no airflow when both one turn windings connected in parallel. 3. To calculate value of terminating resistor (Rt) use the following formula: Rt (W) = Vref * N / (Ipeak_primary) 4. The peak flux densit |
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|
Pulse |
SMT POWER INDUCTORS L 2 50 40 310 310 - - - 240 240 - - - PA1313NL PA1314NL 3 4 50 40 370 450 370 - - 285 350 285 - - 0.425 0.5 50 40 370 490 490 370 - 285 385 385 285 - PA1315NL 5 50 40 370 470 490 470 390 285 365 385 365 285 NOTES: 1. In a non- |
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Pulse |
SMT POWER INDUCTORS L 2 50 40 310 310 - - - 240 240 - - - PA1313NL PA1314NL 3 4 50 40 370 450 370 - - 285 350 285 - - 0.425 0.5 50 40 370 490 490 370 - 285 385 385 285 - PA1315NL 5 50 40 370 470 490 470 390 285 365 385 365 285 NOTES: 1. In a non- |
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Pulse |
SMT POWER INDUCTORS L 2 50 40 310 310 - - - 240 240 - - - PA1313NL PA1314NL 3 4 50 40 370 450 370 - - 285 350 285 - - 0.425 0.5 50 40 370 490 490 370 - 285 385 385 285 - PA1315NL 5 50 40 370 470 490 470 390 285 365 385 365 285 NOTES: 1. In a non- |
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|
Pulse |
TRANSFORMERS ent rating is based upon temperature rise of the component and represents the DC current which will cause a typical temperature rise of 40°C with no airflow when both one turn windings * for bi-polar current applications divide Bpk (as calculated ab |
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|
|
Pulse |
TRANSFORMERS ent rating is based upon temperature rise of the component and represents the DC current which will cause a typical temperature rise of 40°C with no airflow when both one turn windings * for bi-polar current applications divide Bpk (as calculated ab |
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|
|
Pulse |
TRANSFORMERS ent rating is based upon temperature rise of the component and represents the DC current which will cause a typical temperature rise of 40°C with no airflow when both one turn windings * for bi-polar current applications divide Bpk (as calculated ab |
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|
|
Pulse |
SMT Current Sense Transformer use a typical temperature rise of 40°C with no airflow when both one turn windings connected in parallel. 3. To calculate value of terminating resistor (Rt) use the following formula: Rt (W) = Vref * N / (Ipeak_primary) 4. The peak flux densit |
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|
|
Pulse |
SMT Current Sense Transformer use a typical temperature rise of 40°C with no airflow when both one turn windings connected in parallel. 3. To calculate value of terminating resistor (Rt) use the following formula: Rt (W) = Vref * N / (Ipeak_primary) 4. The peak flux densit |
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|
Pulse |
SMT Current Sense Transformer use a typical temperature rise of 40°C with no airflow when both one turn windings connected in parallel. 3. To calculate value of terminating resistor (Rt) use the following formula: Rt (W) = Vref * N / (Ipeak_primary) 4. The peak flux densit |
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Pulse |
SMT Current Sense Transformer use a typical temperature rise of 40°C with no airflow when both one turn windings connected in parallel. 3. To calculate value of terminating resistor (Rt) use the following formula: Rt (W) = Vref * N / (Ipeak_primary) 4. The peak flux densit |
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Pulse |
SMT Current Sense Transformer use a typical temperature rise of 40°C with no airflow when both one turn windings connected in parallel. 3. To calculate value of terminating resistor (Rt) use the following formula: Rt (W) = Vref * N / (Ipeak_primary) 4. The peak flux densit |
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